JP2007537469A5 - - Google Patents

Description

Automatic tuning apparatus for stringed instruments and automatic tuning method thereof

  The present invention relates to a stringed instrument automatic tuning apparatus and a stringed instrument automatic tuning method.

  In general, tuning instruments requires time with trained hearing, especially for inexperienced performers and hobby musicians who play musical instruments with a hobby, it takes a lot of time to be able to tune. In the conventional tuning method, a manual operation is performed using a tuning fork that emits a desired sound when a musician strikes it, and the sound of each string is adjusted while changing the length and tension of the string. Beat the string and tuning fork many times and compare the results to tune the desired string. In this way, the tuning of one string is completed, and then the next string tuning is sequentially performed.

  Instrument strings need to be tuned regularly as the material stretches and loosens, and strings vary in length depending on weather conditions, for example, on concert hall stages, they are relatively dry and cool Because the temperature and humidity are higher than in the practice room, the guitar strings on the stage must be extended and frequently tuned. Also, after a new string is put, it must be tuned.

  In order to alleviate the difficulty of tuning, it was constructed so that all strings can be played simultaneously by attaching an auxiliary tool called `` Stramar '' in English to the body of the guitar. An automatic tuning device for stringed instruments in which the electronic device captures the sound, compares it with a pre-stored reference sound, and adjusts the string tension by an adjustment device connected to the string to match the stored sound. Is known (for example, see Patent Document 1).

In addition, each part is distributed in the head and body of the guitar, cables that connect the distributed parts to each other are attached for data transmission, wireless, infrared, and other wireless repeaters are also attached An electronic automatic tuning device for guitars is known (for example, see Patent Document 2).
U.S. Pat. No. 4,803,908 International Publication No. 03/012774 Pamphlet

  The automatic tuning device for stringed musical instruments described in Patent Document 1 can automatically tune, is easy to handle, and realizes a significant reduction in tuning costs not only for inexperienced players but also for professional players. It is extremely preferable in that it can be performed. However, this stringing instrument's automatic tuning device is large and does not have a good shape, and requires a major change in the body of the guitar. There is also a problem of affecting it. In addition to this problem, there is also a problem that changes the appearance of the guitar.

  Since the entire guitar is a resonance body that is important for acoustic characteristics, the acoustic characteristics change when such changes are applied. For this reason, it is almost impossible to retrofit the automatic tuning device of this stringed instrument to an existing instrument, and it is not easy to attach it to a new guitar integrally. In particular, regarding the acoustic aspect, two types of guitars, that is, guitars equipped with an automatic tuning device for this stringed instrument and guitars not equipped at the design stage, were separately developed.

  Furthermore, in the electronic automatic tuning device described in Patent Document 2, since the cable for connecting the portions arranged in a dispersed manner occupies a large volume in the guitar, the above-mentioned Patent Document 1 is used in terms of the acoustic surface of the guitar. It had all the same problems as the automatic tuning device for stringed instruments described in. The electronic automatic tuning device is also equipped with wireless, infrared, and other wireless repeaters. For this reason, it is necessary to separately attach a corresponding transmitter and receiver to the head, and these transmitters and receivers are heavy in weight and adversely affect not only the appearance of the guitar but also the acoustic characteristics. . Furthermore, these transmitters and receivers must have their own power supplies, and batteries and cable outlets must be separately attached to the guitar head.

  The present invention has been made in view of the above problems, and an object thereof is to provide an automatic stringing device for a stringed instrument and an automatic stringing method for a stringed instrument that do not affect the acoustic characteristics as much as possible.

The automatic stringing device for a stringed instrument according to claim 1 captures a sound generated by playing the string of a stringed instrument having a plurality of strings, and transmits a first signal corresponding to the captured sound. A storage device that stores a second signal corresponding to the required sound in advance, stores the first signal transmitted from the sound capturing device, and a sound that is stored and required in the storage device. A comparison device for comparing a second signal corresponding to the above, an adjustment device for adjusting the tension of the string, at least one drive device for driving the adjustment device, and the comparison device connected to the comparison device. and a control device for adjusting at least one of the drive device via a bus code in based on the difference between the compared first signal and the previous SL second signal, prior SL drive before Symbol It is installed on one end side of the stringed instrument strings, wherein the control device the string Is installed in the other end of the string, the bus code between the control device and the drive device is a string of the stringed instrument, strings acting as the bus code string formed by conductors, the conductor material wound strings, Ru der those either chords coated string by conductors material and conductor material are wound and coated.

The claim 2 stringed automatic tuning apparatus according an automatic tuning apparatus of the stringed instrument according to claim 1 Symbol placement, control device, Hoon a first signal corresponding to the sound within a certain tolerance range By receiving from the apparatus, a program for tuning a string is called, and control is switched based on this program .

Automatic tuning apparatus stringed instrument of claim 3, wherein, in the automatic tuning apparatus of the stringed instrument according to claim 1 or 2, wherein the control apparatus is provided with an interface for data exchange.

An automatic stringing device for a stringed instrument according to a fourth aspect is the automatic stringing device for a stringed musical instrument according to any one of the first to third aspects, comprising a plurality of adjusting devices provided with a drive device. Each of the adjusting devices is attached.

The claims 5 stringed automatic tuning apparatus according an automatic tuning apparatus of the stringed instrument according to any one of claims 1 to 4, Tooto device, storage device, at least a portion of the comparator and regulating equipment, stringed It is integrated in the unit.

Automatic tuning apparatus stringed instrument according to claim 6, wherein, in the automatic tuning apparatus of the stringed instrument according to any one of claims 1 to 5, the strings of the stringed instrument is one that is selectively available as server Sukodo.

Automatic tuning apparatus stringed instrument according to claim 7, wherein, in the automatic tuning apparatus of the stringed instrument according to any one of claims 1 to 6, stringed instrument has a neck and body, the strings are arranged along said neck and a guitar, the control unit is attached to the guitar body, the adjusting device and drive kinematic device is attached respectively to the upper end of the neck of the guitar, the drive device, via the string the It is connected to the control device.

The automatic string tuning method for a stringed instrument according to claim 8 includes a step of playing one of the strings to be adjusted among strings of a stringed instrument having a plurality of strings, and a sound generated from the played string by a sound collecting device. The step of capturing and transmitting the first signal corresponding to the captured sound to the comparison device, and the second signal corresponding to the required sound stored in the storage device and stored in the storage device. compared Te, these first signal and determining a tension adjustment value of the string by the control device based on the difference between the second signal, the stringed instrument of the control signal from the controller corresponding to the tension adjustment value and sending to the operated device driving through the strings is a bus code, in which driving the adjusting device by the driving apparatus; and a step of adjusting the tension of the string.

The automatic tuning method for a stringed instrument according to claim 9 is the automatic tuning method for a stringed instrument according to claim 8 , wherein the first signal is filtered and then compared with the second signal by the comparison device. It is.

The automatic tuning method for a stringed instrument according to claim 10 is the automatic tuning method for a stringed instrument according to claim 8 or 9 , wherein the first signal is obtained through a frequency filter based on a frequency obtained by drawing the string. The second signal corresponds to a frequency input in advance.

According to the automatic tuning apparatus of the stringed instrument according to claim 1, Ru can be placed in a distributed control system and a drive system without unduly processing stringed instruments.

According to the automatic tuning apparatus of the stringed instrument according to claim 2, in addition to the effect of the automatic tuning apparatus of the stringed instrument according to claim 1 Symbol placement, can respond only by control unit play the strings.

According to the automatic tuning apparatus of the stringed instrument according to claim 3, in addition to the effect of the automatic tuning apparatus of the stringed instrument according to claim 1 or 2, you can exchange data externally.

According to the automatic tuning device for a stringed instrument according to claim 4 , in addition to the effect of the automatic tuning device for a stringed instrument according to any one of claims 1 to 3 , tuning can be performed for each string of the stringed instrument.

According to the automatic tuning apparatus for a stringed instrument according to claim 5 , in addition to the effect of the automatic tuning apparatus for a stringed instrument according to any one of claims 1 to 4, it is possible to reduce the size.

According to the automatic tuning apparatus for a stringed instrument according to claim 6 , in addition to the effects of the automatic stringing apparatus for a stringed instrument according to any one of claims 1 to 5 , the stringed instrument can be tuned even if one string breaks down. .

According to the automatic stringing device for a stringed instrument according to the seventh aspect , in addition to the effect of the automatic stringing device for the stringed instrument according to any one of the first to sixth aspects, the stringed musical instrument can be integrated into the guitar.

According to the automatic tuning method for a stringed instrument according to claim 8, the string of the stringed instrument can be used as a bus cord.

According to the automatic tuning method for a stringed instrument according to the ninth aspect , in addition to the effect of the automatic tuning method for the stringed instrument according to the eighth aspect , the state of the sound can be determined from the first signal.

According to the automatic tuning method for a stringed instrument according to claim 10 , in addition to the effect of the automatic tuning method for a stringed instrument according to claim 8 or 9 , the frequency can be obtained quickly and accurately by only playing the string once. .

  Next, an embodiment of an automatic tuning apparatus for a stringed instrument according to the present invention will be described in detail. This automatic stringing device is not limited to an electric guitar, but can also be used for an acoustic guitar, other stringed instruments such as an electric bass, a violin, and a harp, an electric stringed acoustic instrument, and an acoustic stringed instrument.

  As shown in FIGS. 1 to 4, this automatic stringing device is designed to be as small as possible without affecting the acoustic characteristics as much as possible and to be incorporated in a stringed instrument, particularly an electric guitar 1. . In the automatic tuning apparatus, at least a part of the automatic tuning apparatus is integrated and attached to the electric guitar 1 as a stringed musical instrument. The electric guitar 1 includes a body 2, a neck 3, and a head 4. One end which is a ball end of the plurality of strings 6a to 6f is fixed to the tremolo system block 5 attached to the body 2. Here, the strings 6a to 6f are formed by being wound or coated with a conductor or a conductor material, or wound and coated with a conductor material. Further, the strings 6a to 6f are arranged in parallel along the neck 3 from the tremolo system block 5 through the neck 3 to the head 4. The other ends of the strings 6a to 6f are fixed so as to be wound around the peg posts 7 one by one and adjusted. Since the peg post 7 is connected to the peg 8 so as to be interlocked, when the peg 8 is turned, the other ends of the strings 6a to 6f are wound around the peg post 7 or are unwound to be loosened. The electric guitar 1 is tuned by adjusting the tension and length of the strings 6a to 6f by operating the peg 8. Here, the peg post 7 and the peg 8 are respectively attached to the upper end of the neck 3 of the electric guitar 1.

  As shown in FIG. 1, the pick guard 9 is a kind of cover plate, and the electronic device of the electric guitar 1 is housed in a space provided in the lower part of the body 2, and the pick guard 9 covers this space. . Under the pick guard 9, as shown in FIG. 2, a control chip 10 which is a part of the automatic tuning apparatus is installed.

Further, as shown in FIG. 2, a step motor 11 as a driving device connected via a gear or the like is attached to the mechanical portion of the peg 8 in the head 4 of the electric guitar 1. These step motors 11 constitute a part of an automatic stringing device, and two strings 6a to 6f are used as connection cords and connected to a control chip 10 for adjustment as a control device. The control chip 10 is attached to the body 2 of the electric guitar 1. In addition, the control chip 10 and the step motor 11 have a step motor 11 installed on one end side of the strings 6a to 6f and a control chip on the other end side of the strings 6a to 6f in the longitudinal direction of the strings 6a to 6f. 10 is installed. Here, it is possible to adjust the tension of the strings 6a to 6f by operating the peg 8 by hand and turning the peg post 7, but it is also possible to adjust the tension of the strings 6a to 6f with these step motors 11. is there.

  As shown in FIGS. 3 and 4, the body 2 has a pickup 12 as a sound pickup device attached under the strings 6a to 6f. The pickup 12 vibrates the strings 6a to 6f, that is, the string 6a. It has a function of capturing a sound generated when playing .about.6f, converting it into an electric signal as a digital signal, which is a first signal corresponding to the captured sound, and transmitting it. At the same time, the pickup 12 is also used as a component of an automatic tuning apparatus.

  Further, as shown in FIGS. 3 and 4, the body 2 is provided with a potentiometer 13. In general, the electric guitar 1 uses a plurality of potentiometers 13 of this type in order to adjust treble, bass, and volume. The potentiometer 13 is a volume controller and a controller for attaching the automatic tuning device to the electric guitar 1. The potentiometer 13 is a so-called push-pull potentiometer having an auxiliary switch function, which is different in structure from the conventional potentiometer.

  Further, a cord 14 is connected from the control chip 10 to the tremolo system block 5, more precisely from the strings 6a to 6f.

  As shown in FIGS. 5 and 6, a stand 15 for guiding the strings 6 a to 6 f fixed to the tremolo system block 5 is installed on the tremolo system block 5. As shown in FIG. 6, the strings 6 a to 6 f pass through holes 17 in the tremolo system block 5, and a thick portion 18, which is a ball end provided at one end of these strings 6 a to 6 f, It is held at the edge. Insulating sleeves 19 having ring portions facing outwards are inserted into the edge portions protruding from the holes 17 in the respective lower edge portions of the holes 17. Between the ring portion of the insulating sleeve 19 and the thick portion 18 as a ball end, a conductor plate 20 that contacts the thick portion 18 of the strings 6a to 6f is attached. The conductor plate 20 is connected to the cords 14a to 14f connected to the control chip 10.

  As a result, the strings 6a to 6f made of conductive metal or conductive fiber of the electric guitar 1 are electrically connected to the control chip 10.

  As shown in FIGS. 5A and 5B, a base 15 is mounted on the tremolo system block 5. In the insertion portion 16 of the table 15, the strings 6 a to 6 f pass above the table 15. The insertion portion 16 of the table 15 is inserted into a recess shown on the right side of the table 15 shown in FIG. Here, in the case of the electric guitar 1, the base 15 and the insertion portion 16 are always made of metal, that is, a conductor. Therefore, in order to prevent short-circuiting between the strings 6a to 6f electrically connected via the cord 14, it is necessary to insulate the insertion portions 16 of the table 15 through which the strings 6a to 6f pass. For this reason, as shown in FIG. 5A, the plate 21 is inserted and insulated.

  7A to 7D show details of the head 4 of the electric guitar 1. In this case, FIG. 7 (d) is an enlarged view of a portion to which a symbol D in FIG. 7 (c) is attached.

  8 (a) to 8 (d), the unit for adjusting the tension of the strings 6a to 6f including the peg post 7, the peg 8, and the step motor 11 for adjusting the tension of the strings 6a to 6f is removed from the head 4. The state is shown. Each of these units is mounted on a common board 22 having another control unit for adjusting the step motor 11. Here, the strings 6a to 6f are electrically connected to the corresponding code lanes on the board 22 via metal peg posts 7 which are conductors.

  Next, the operation of the automatic tuning device of the electric guitar 1 will be described.

  First, pulling the potentiometer 13 activates the system.

Next, when one string 6a to 6f is played, a command is sent to the control chip 10. The sound generated by playing the strings 6a to 6f is converted into an electric signal by the pickup 12, and this electric signal is converted into one frequency in the control chip 10. A specific command programmed is stored in advance in the control chip 10, and a frequency within a certain tolerance range is generated by this program. In this way, a program for tuning one string such as the E string 6f is called. When this program is activated, the control chip 10 calls the reference frequencies of the strings 6a to 6f, which are the reference frequencies of the second signal corresponding to the necessary sound that has been previously input and stored in the storage device from the storage device. When this string 6f is played again in some cases, one frequency converted by the pickup 12 and converted by the control chip 10 is compared with a reference frequency stored in the storage device by a comparison device, and these frequencies are compared. The control chip 10 calculates the actual frequency based on the difference between the reference frequency and the reference frequency, obtains the string tension adjustment value, and uses the control signal corresponding to this tension adjustment value as the bus cord that is the connection cord. The strings 6a to 6f are sent to the board 22 or the corresponding stepping motor 11 via the board 22 to adjust the tension of the strings 6f to the reference frequency. In this case, the control chip 10 monitors the change in frequency, and a stop signal is sent to the step motor 11 when the reference frequency is reached. In this way, all the strings 6a to 6f can be tuned sequentially. The actual frequency from the electrical signal of the pickup 12 can be calculated very quickly and accurately, so the electrical signal of the pickup 12 is passed through a mathematical frequency filter based on the frequency obtained by subtracting the strings 6a to 6f. is that has been obtained. In addition, the electrical signal stored in the storage device corresponds to the frequency that is input and stored in advance in the storage device.

  An interface (not shown) for exchanging data is attached to the control chip 10, and various frequencies can be input in advance from this interface according to the tuning method selected such as open tuning. .

  For transmission of the control signal, only two strings are used. The other two strings, in this case the lower E string 6f and the A string 6e, are used as power supply lines that are power cords for the step motor 11 of the board 22 and the head 4 The board 22 and the step motor 11 do not require a unique power source. The strings 6f and 6e are used as power supply lines. The lower E string 6f and A string 6e are the thickest among the strings of the electric guitar 1 and are not easily broken. Arbitrary two strings among the remaining four strings 6a to 6d are configured such that the control chip 10 can be freely selected as a bus code and can be freely adjusted by these control chips 10. As a result, the system becomes solid, and even if one of the strings 6a to 6f has a defect such as a crack or break, or if two strings have a crack or break, the other string 6a ~ 6f can be used as a bus cord or power cord, so it can operate without problems.

  In addition, if a light emitting diode is installed under the strings 6a to 6f in the body 2 and the pickup 12, and the status of the control chip 10 and the program is displayed with these light emitting diodes, the handling of the automatic tuning device can be simplified. . It is also possible to attach a “simple manual” that displays what sound is produced and what instruction is called when any of these strings 6a to 6f is played, under the strings 6a to 6f. The frequency related to the command is managed so as to be a frequency suitable for the tuning state at the time when the electric guitar 1 is tuned by the control chip 10, and the user always calls the same string 6 a to 6 to call the command. Although it is necessary to play 6f with the same grip, it does not matter what the tuning state of the electric guitar 1, that is, the strings 6a to 6f is.

In this embodiment, power is supplied to the system from the outside, that is, through an amplifier cable that electrically connects the electric guitar 1 and the amplifier. The internal resistance of the electric guitar 1 is constantly monitored by a signal circuit which is a detection circuit shown in FIG. Usually, the electric guitar 1 in a state ready for performance has a high internal resistance. When the performer pulls the potentiometer 13, the pickup 12 is separated from the jack bush for the cable of the amplifier, that is, the amplifier, and the control chip 10 is switched on. As a result, the internal resistance of the electric guitar 1 is reduced by at least 20 or more. When the signal circuit detects a decrease in internal resistance, the signal cable of the amplifier connected to one of the amplifiers is cut off so that the electric guitar 1 can be tuned. The signal circuit obtains power from the amplifier power supply circuit or an external power supply circuit, but switches to power supply from the amplifier cable when a decrease in internal resistance is detected. Thereafter, the voltage obtained by the power supply is sent to the control chip 10 and further supplied to the head 4 via the strings 6a to 6f, and the automatic stringing device is activated. At this time, when the control chip 10 receives an electrical signal corresponding to a sound within the tolerance range from the pickup 12, the control chip 11 is switched off. Thereafter, when the tuning, circuit adjustment, and input of new data of the electric guitar 1 are completed, the potentiometer 13 is returned to the normal position by the player. As a result, the internal resistance of the electric guitar 1 rises again at the pickup 12 connected to the amplifier cable. When the signal circuit of FIG. 9 detects this increase in internal resistance, a signal is sent again from the amplifier cable to the amplifier, and the player can play the electric guitar 1.

  As described above, the automatic tuning apparatus can disperse and arrange each part of the automatic tuning apparatus on the stringed instrument. For example, when the stringed instrument is an electric guitar 1, the entire automatic tuning device cannot be attached to the body 2. However, a part of the automatic tuning device is attached to the neck 3 and the head 4 of the electric guitar 1. There is a small space that can be installed inconspicuously. In particular, in the case of the electric guitar 1, a means for adjusting the length and tension of the strings 6a to 6f attached to the head 4, specifically, the peg post 7 can be used. Can be reduced. The parts that can be installed on stringed instruments such as the electric guitar 1 of this automatic stringing device are extremely limited.

In order to be able to disperse and arrange each part of the control chip 10 and the step motor 11 without applying excessive processing to the body 2 of the electric guitar 1, a control chip 10 attached to a part of the electric guitar 1 and A control signal is transmitted between the step motor 11 and the string functioning as a bus cord. For this reason, it is not necessary to install a special cable or transmission means such as wireless or infrared.

  In many cases, the strings 6a to 6f of the stringed instrument such as the electric guitar 1 have a structure in which a conductor thread is wound around a conductor such as metal or a conductor material. If there is no acoustic problem, the strings 6a to 6f can be coated with a conductor material. When these strings 6a to 6f are coated with a conductor material, it is not necessary to provide an auxiliary cord on the body 2 of the stringed instrument. For this reason, not only the acoustic characteristics but also the appearance of the stringed instrument does not change, and the conventional shape can be maintained. In order to use a plurality of strings 6a to 6f as a connection cord for a bus cord or a power cord and prevent an electrical short between the strings 6a to 6f, the strings 6a such as the neck 3 of the electric guitar 1 are used. The parts through ~ 6f must be insulated from each other. For this reason, insulation processing such as making the portion through which the strings 6a to 6f such as the neck 3 of the electric guitar 1 pass non-conductive such as ceramic, coating with non-conductive, or inserting an insulating plate between them. Must.

  The step motor 11 is specifically an electric motor, but a pneumatic or hydraulic drive device can also be used.

  When a stringed instrument is electrically connected to an amplifier as in the electric guitar 1, the existing pickup 12 or the pickup 12 of the stringed instrument connected to the amplifier can be used as a part of the sound collecting device.

In addition, since the power supply to the step motor 11 is sent through the strings, there is no need to provide a unique power source such as a battery on the step motor 13 side, and there is a possibility that the appearance and balance of the stringed instrument may be adversely affected. There is no need to install parts or special power cords.

Further, the control chip 10 calls a program for tuning a string by receiving an electrical signal corresponding to a sound within a certain tolerance range from the pickup 12 , and switches the control based on this program. The control chip 10 can be responded simply by playing.

  If an interface for data exchange is used, software can be installed on the control chip 10 from outside. In addition, various reference tunings can be input to the storage device via this interface, and stringed instruments can be tuned in various forms.

  Further, since one step motor 11 is attached to each of the strings 6a to 6f, tuning can be performed for each of the strings 6a to 6f. A stepping motor 11 that can be switched by a corresponding gear mechanism or a similar device that adjusts for each of the strings 6a to 6f can also be used.

By incorporating at least a part of the pickup 12, the storage device, the comparison device, and the peg post 7 of the automatic tuning device into the stringed instrument, the automatic tuning device can be extremely miniaturized. If each part of the automatic stringing device is selected as small as possible, these parts can be embedded in the stringed instrument, which does not obstruct the performer who plays the stringed instrument. Furthermore, there is no need to use external parts when tuning a stringed instrument, and the performer can freely tune anywhere.

  Since a plurality of strings 6a to 6f of the stringed instrument are used as at least one of a bus cord and a power cord and connected to the control chip 10, a robust system is obtained, and even if one string 6a to 6f breaks down, the stringed instrument Can be tuned.

In order to reliably determine the state of the sound from the electrical signal transmitted from the pickup 12 , it is preferable to filter the electrical signal .

  Further, when obtaining the fundamental frequency indicating the state of the sound of the electrical signal transmitted from the pickup 12, it is desirable to use a mathematical frequency filter. Unlike the normally used fast Fourier transform (FFT), this frequency filter can quickly and accurately determine the frequency by playing the strings 6a to 6f once. That is, if the strings 6a to 6f are played only once, the sound that must be captured in order to accurately grasp the state of the sound, that is, the frequency is immediately lost, which is extremely important.

It is the schematic which shows the state which looked at the electric guitar with which the automatic tuning apparatus of one embodiment of this invention was attached from the front. It is the schematic which shows the state which looked at the electric guitar same as the above from back. It is the schematic which showed the detail of the electric guitar same as the above. It is an enlarged view which shows the body of an electric guitar same as the above. It is a top view which shows the stand of the tremolo system block of an electric guitar same as the above. It is the schematic which shows the state in which the string is fixed in the tremolo system block of an electric guitar same as the above, and the string is connected to the chord. It is the schematic which shows the head of an electric guitar same as the above. It is the schematic which shows the peg and step motor of an electric guitar same as the above. It is the schematic which shows the signal circuit which adjusts supply of electric power to the automatic tuning apparatus of an electric guitar same as the above.

1 Electric guitar that is a guitar as a stringed instrument 2 Body 3 Neck
6a ~ 6f String 7 Pegpost as adjusting device
10 Control chip as a control device
11 Step motor as drive unit
12 Pickup as a sound collector

Claims (10)

A sound capturing device that captures a sound generated by playing the string of a stringed instrument having a plurality of strings, and transmits a first signal corresponding to the captured sound;
A storage device that stores in advance a second signal corresponding to the required sound;
A comparison device for comparing the first signal transmitted from the sound capturing device with the second signal corresponding to the sound stored and required in the storage device;
An adjusting device for adjusting the tension of the string;
At least one driving device for driving the adjusting device;
It is connected to the comparison device, and a control device for adjusting at least one of the drive device via a bus code based on the difference between the first signal and the previous SL second signal are compared in the comparison device Comprising
Before SL drive is installed in one end of the chord before Symbol stringed instrument, wherein the control device is installed to the other end of the strings of the stringed instrument,
The bus cord between the control device and the drive device is a string of a stringed instrument,
Strings acting as the bus code string formed of a conductive, chord conductor material is wound, it has been chord, and is either chord conductor material is wound and coated coating of a conductive material An automatic stringing device for stringed musical instruments. The control device includes a feature to switch from receiving a first signal corresponding to the sound within a certain tolerance range Hoon device calls a program that chord tone the chord, the control on the basis of the program automatic tuning apparatus of claim 1 Symbol placement string instruments are. Controller, an automatic tuning apparatus of the stringed instrument according to claim 1, wherein further comprising an interface for data exchange. A plurality of adjusting devices including a driving device;
The automatic tuning device for a stringed instrument according to any one of claims 1 to 3 , wherein each of the strings of the stringed instrument is provided with one adjusting device. The automatic stringing device for a stringed instrument according to any one of claims 1 to 4 , wherein at least a part of the sound capturing device, the storage device, the comparison device, and the adjusting device are integrally incorporated in the stringed instrument. The strings of the stringed instrument, the stringed instrument automatic tuning apparatus according to any one of claims 1 to 5, characterized in that it is selectively available as server Sukodo. Stringed has a neck and body, a guitar chord is arranged along said neck,
The control device is attached to the body of the guitar,
Adjusting device and drive kinematic device is attached respectively to the upper end of the neck of the guitar,
The automatic driving device for a stringed instrument according to any one of claims 1 to 6 , wherein the driving device is connected to the control device via the string. Playing one of the strings to be adjusted among the strings of a stringed instrument with multiple strings;
Capturing a sound generated from the played string by a sound capturing device, and transmitting a first signal corresponding to the captured sound to the comparison device ;
The first signal and the second signal stored in the storage device and corresponding to the required sound are compared by a comparison device, and based on the difference between the first signal and the second signal, the string Obtaining a tension adjustment value with a control device ;
Sending a control signal corresponding to the tension adjustment value from the controller to the motion apparatus drive via the chord is a bus code of the stringed instrument,
A method for automatically tuning a stringed musical instrument, comprising: a step of driving an adjusting device by a driving device to adjust the tension of the string. 9. The automatic tuning method for a stringed instrument according to claim 8 , wherein the first signal is filtered and then compared with the second signal by the comparison device . The first signal is obtained through a frequency filter based on the frequency obtained by playing the string,
The automatic tuning method for a stringed instrument according to claim 8 or 9 , wherein the second signal corresponds to a frequency input in advance.